北京化工大学学报(自然科学版)
北京化工大學學報(自然科學版)
북경화공대학학보(자연과학판)
JOURNAL OF BEIJING UNIVERSITY OF CHEMICAL TECHNOLOGY(NATURAL SCIENCE EDITION)
2010年
3期
1-5
,共5页
李群生%黄小侨%张继国%何秀琼
李群生%黃小僑%張繼國%何秀瓊
리군생%황소교%장계국%하수경
汽液平衡%离子液体%异丙醇%水%1-辛基-3-甲基四氟硼酸咪唑盐%NRTL模型
汽液平衡%離子液體%異丙醇%水%1-辛基-3-甲基四氟硼痠咪唑鹽%NRTL模型
기액평형%리자액체%이병순%수%1-신기-3-갑기사불붕산미서염%NRTL모형
vapor-liquid equilibrium%ionic liquid%isopropanol%water%1-octyl-3-methylimidazolium tetrafluorobo rate%NRTL model
在101.32 kPa下,用改进的Othmer釜测定了含离子液体1-辛基-3-甲基四氟硼酸咪唑盐([OMIM]BF4)的异丙醇-水物系的等压汽液平衡数据.实验结果表明,加入[OMIM]BF4摩尔分数为10%时异丙醇-水二组分物系的汽液平衡线就开始偏离,[OMIM]BF4摩尔分数分别为20%和30%时,偏离程度越大;[OMIM]BF4表现出盐效应,使异丙醇对水的相对挥发度发生改变,消除了异丙醇-水物系的共沸点;[OMIM]BF4摩尔分数越大,盐效应越明显,随着[OMIM]BF4摩尔分数的增加,异丙醇对水的相对挥发度增加.[OMIM]BF4可以作为异丙醇-水物系萃取精馏的溶剂,适宜的[OMIM]BF4摩尔分数为20%.用NRTL模型对数据进行了关联,关联的结果和实验计算值差不多,符合实验趋势.
在101.32 kPa下,用改進的Othmer釜測定瞭含離子液體1-辛基-3-甲基四氟硼痠咪唑鹽([OMIM]BF4)的異丙醇-水物繫的等壓汽液平衡數據.實驗結果錶明,加入[OMIM]BF4摩爾分數為10%時異丙醇-水二組分物繫的汽液平衡線就開始偏離,[OMIM]BF4摩爾分數分彆為20%和30%時,偏離程度越大;[OMIM]BF4錶現齣鹽效應,使異丙醇對水的相對揮髮度髮生改變,消除瞭異丙醇-水物繫的共沸點;[OMIM]BF4摩爾分數越大,鹽效應越明顯,隨著[OMIM]BF4摩爾分數的增加,異丙醇對水的相對揮髮度增加.[OMIM]BF4可以作為異丙醇-水物繫萃取精餾的溶劑,適宜的[OMIM]BF4摩爾分數為20%.用NRTL模型對數據進行瞭關聯,關聯的結果和實驗計算值差不多,符閤實驗趨勢.
재101.32 kPa하,용개진적Othmer부측정료함리자액체1-신기-3-갑기사불붕산미서염([OMIM]BF4)적이병순-수물계적등압기액평형수거.실험결과표명,가입[OMIM]BF4마이분수위10%시이병순-수이조분물계적기액평형선취개시편리,[OMIM]BF4마이분수분별위20%화30%시,편리정도월대;[OMIM]BF4표현출염효응,사이병순대수적상대휘발도발생개변,소제료이병순-수물계적공비점;[OMIM]BF4마이분수월대,염효응월명현,수착[OMIM]BF4마이분수적증가,이병순대수적상대휘발도증가.[OMIM]BF4가이작위이병순-수물계췌취정류적용제,괄의적[OMIM]BF4마이분수위20%.용NRTL모형대수거진행료관련,관련적결과화실험계산치차불다,부합실험추세.
Isobaric vapor-liquid equilibrium (VLE) data for the isopropanol-water system containing the ionic liquid (IL) 1-octyl-3-methylimidazolium tetrafluoroborate ([OMIM] BF4) have been measured at 101.32 kPa in a modified Othmer still. The vapor-liquid equilibrium curve for the isopropanol-water system with added IL deviates from the line when the mole fraction of [OMIM] BF4 reaches 10%. When the mole fraction of [OMIM] BF4 reaches 20% or 30%, the deviation from the line increases further. The IL shows a salt effect, which increases the volatility of isopropanol relative to that of water, and even leads to the disappearance of the azeotropic point. As a result,it is concluded that [OMIM] BF4 can be employed as an entrainer for the extractive distillation of the isopropanol-water system. Based on the VLE data, the optimum mole fraction of [OMIM] BF4 is about 20%. The measured ternary data were correlated using the NRTL model, and the correlated result was found to be similar to the experiment data.